
/* $Id$ */
// Copyright (C) 2002, International Business Machines
// Corporation and others.  All Rights Reserved.
// This code is licensed under the terms of the Eclipse Public License (EPL).

#if defined(USE_CBCCONFIG) || defined(CBCSOLVER_BUILD)
#ifndef CBCSOLVERLIB_EXPORT
#include "CbcSolverConfig.h"
#endif
#define CBCORCLPPARAM_EXPORT CBCSOLVERLIB_EXPORT
#else
#include "ClpConfig.h"
#define CBCORCLPPARAM_EXPORT CLPLIB_EXPORT
#endif

#ifndef CbcOrClpParam_H
#define CbcOrClpParam_H
/**
   This has parameter handling stuff which can be shared between Cbc and Clp (and Dylp etc).

   This (and .cpp) should be copied so that it is the same in Cbc/Test and Clp/Test.
   I know this is not elegant but it seems simplest.

   It uses COIN_HAS_CBC for parameters wanted by CBC
   It uses COIN_HAS_CLP for parameters wanted by CLP (or CBC using CLP)
   It could use COIN_HAS_DYLP for parameters wanted by DYLP
   It could use COIN_HAS_DYLP_OR_CLP for parameters wanted by DYLP or CLP etc etc

 */
class OsiSolverInterface;
class CbcModel;
class ClpSimplex;
/*! \brief Parameter codes

  Parameter type ranges are allocated as follows
  <ul>
    <li>   1 -- 100  double parameters
    <li> 101 -- 200  integer parameters
    <li> 201 -- 300  Clp string parameters
    <li> 301 -- 400  Cbc string parameters
    <li> 401 -- 500  (mostly) Clp actions
    <li> 501 -- 600  (mostly) Cbc actions
  </ul>

  `Actions' do not necessarily invoke an immediate action; it's just that they
  don't fit neatly into the parameters array.

  This coding scheme is in flux.
*/

enum CbcOrClpParameterType

{
  CBC_PARAM_GENERALQUERY = -100,
  CBC_PARAM_FULLGENERALQUERY,

  CLP_PARAM_DBL_PRIMALTOLERANCE = 1,
  CLP_PARAM_DBL_DUALTOLERANCE,
  CLP_PARAM_DBL_TIMELIMIT,
  CLP_PARAM_DBL_DUALBOUND,
  CLP_PARAM_DBL_PRIMALWEIGHT,
  CLP_PARAM_DBL_OBJSCALE,
  CLP_PARAM_DBL_RHSSCALE,
  CLP_PARAM_DBL_ZEROTOLERANCE,
  CLP_PARAM_DBL_PSI,
  CLP_PARAM_DBL_PROGRESS,

  CBC_PARAM_DBL_INFEASIBILITYWEIGHT = 51,
  CBC_PARAM_DBL_CUTOFF,
  CBC_PARAM_DBL_INTEGERTOLERANCE,
  CBC_PARAM_DBL_INCREMENT,
  CBC_PARAM_DBL_ALLOWABLEGAP,
  CBC_PARAM_DBL_TIMELIMIT_BAB,
  CBC_PARAM_DBL_GAPRATIO,

  CBC_PARAM_DBL_DJFIX = 81,
  CBC_PARAM_DBL_TIGHTENFACTOR,
  CLP_PARAM_DBL_PRESOLVETOLERANCE,
  CLP_PARAM_DBL_OBJSCALE2,
  CBC_PARAM_DBL_FAKEINCREMENT,
  CBC_PARAM_DBL_FAKECUTOFF,
  CBC_PARAM_DBL_ARTIFICIALCOST,
  CBC_PARAM_DBL_DEXTRA3,
  CBC_PARAM_DBL_SMALLBAB,
  CBC_PARAM_DBL_DEXTRA4,
  CBC_PARAM_DBL_DEXTRA5,

  CLP_PARAM_INT_SOLVERLOGLEVEL = 101,
#ifndef COIN_HAS_CBC
  CLP_PARAM_INT_LOGLEVEL = 101,
#endif
  CLP_PARAM_INT_MAXFACTOR,
  CLP_PARAM_INT_PERTVALUE,
  CLP_PARAM_INT_MAXITERATION,
  CLP_PARAM_INT_PRESOLVEPASS,
  CLP_PARAM_INT_IDIOT,
  CLP_PARAM_INT_SPRINT,
  CLP_PARAM_INT_OUTPUTFORMAT,
  CLP_PARAM_INT_SLPVALUE,
  CLP_PARAM_INT_PRESOLVEOPTIONS,
  CLP_PARAM_INT_PRINTOPTIONS,
  CLP_PARAM_INT_SPECIALOPTIONS,
  CLP_PARAM_INT_SUBSTITUTION,
  CLP_PARAM_INT_DUALIZE,
  CLP_PARAM_INT_VERBOSE,
  CLP_PARAM_INT_CPP,
  CLP_PARAM_INT_PROCESSTUNE,
  CLP_PARAM_INT_USESOLUTION,
  CLP_PARAM_INT_RANDOMSEED,
  CLP_PARAM_INT_MORESPECIALOPTIONS,
  CLP_PARAM_INT_DECOMPOSE_BLOCKS,
  CLP_PARAM_INT_VECTOR_MODE,

  CBC_PARAM_INT_STRONGBRANCHING = 151,
  CBC_PARAM_INT_CUTDEPTH,
  CBC_PARAM_INT_MAXITBK,
  CBC_PARAM_INT_MAXITBKEXT,
  CBC_PARAM_INT_CLQEXTMETHOD,
  CBC_PARAM_INT_MAXNODES,
  CBC_PARAM_INT_NUMBERBEFORE,
  CBC_PARAM_INT_NUMBERANALYZE,
  CBC_PARAM_INT_MIPOPTIONS,
  CBC_PARAM_INT_MOREMIPOPTIONS,
  CBC_PARAM_INT_MAXHOTITS,
  CBC_PARAM_INT_FPUMPITS,
  CBC_PARAM_INT_MAXSOLS,
  CBC_PARAM_INT_FPUMPTUNE,
  CBC_PARAM_INT_TESTOSI,
  CBC_PARAM_INT_EXTRA1,
  CBC_PARAM_INT_EXTRA2,
  CBC_PARAM_INT_EXTRA3,
  CBC_PARAM_INT_EXTRA4,
  CBC_PARAM_INT_DEPTHMINIBAB,
  CBC_PARAM_INT_CUTPASSINTREE,
  CBC_PARAM_INT_THREADS,
  CBC_PARAM_INT_CUTPASS,
  CBC_PARAM_INT_VUBTRY,
  CBC_PARAM_INT_DENSE,
  CBC_PARAM_INT_EXPERIMENT,
  CBC_PARAM_INT_DIVEOPT,
  CBC_PARAM_INT_DIVEOPTSOLVES,
  CBC_PARAM_INT_STRATEGY,
  CBC_PARAM_INT_SMALLFACT,
  CBC_PARAM_INT_HOPTIONS,
  CBC_PARAM_INT_CUTLENGTH,
  CBC_PARAM_INT_FPUMPTUNE2,
#ifdef COIN_HAS_CBC
  CLP_PARAM_INT_LOGLEVEL,
#endif
  CBC_PARAM_INT_MAXSAVEDSOLS,
  CBC_PARAM_INT_RANDOMSEED,
  CBC_PARAM_INT_MULTIPLEROOTS,
  CBC_PARAM_INT_STRONG_STRATEGY,
  CBC_PARAM_INT_EXTRA_VARIABLES,
  CBC_PARAM_INT_MAX_SLOW_CUTS,
  CBC_PARAM_INT_MOREMOREMIPOPTIONS,

  CLP_PARAM_STR_DIRECTION = 201,
  CLP_PARAM_STR_DUALPIVOT,
  CLP_PARAM_STR_SCALING,
  CLP_PARAM_STR_ERRORSALLOWED,
  CLP_PARAM_STR_KEEPNAMES,
  CLP_PARAM_STR_SPARSEFACTOR,
  CLP_PARAM_STR_PRIMALPIVOT,
  CLP_PARAM_STR_PRESOLVE,
  CLP_PARAM_STR_CRASH,
  CLP_PARAM_STR_BIASLU,
  CLP_PARAM_STR_PERTURBATION,
  CLP_PARAM_STR_MESSAGES,
  CLP_PARAM_STR_AUTOSCALE,
  CLP_PARAM_STR_CHOLESKY,
  CLP_PARAM_STR_KKT,
  CLP_PARAM_STR_BARRIERSCALE,
  CLP_PARAM_STR_GAMMA,
  CLP_PARAM_STR_CROSSOVER,
  CLP_PARAM_STR_PFI,
  CLP_PARAM_STR_INTPRINT,
  CLP_PARAM_STR_VECTOR,
  CLP_PARAM_STR_FACTORIZATION,
  CLP_PARAM_STR_ALLCOMMANDS,
  CLP_PARAM_STR_TIME_MODE,
  CLP_PARAM_STR_ABCWANTED,
  CLP_PARAM_STR_BUFFER_MODE,

  CBC_PARAM_STR_NODESTRATEGY = 301,
  CBC_PARAM_STR_BRANCHSTRATEGY,
  CBC_PARAM_STR_CUTSSTRATEGY,
  CBC_PARAM_STR_HEURISTICSTRATEGY,
  CBC_PARAM_STR_CLIQUEMERGING,
  CBC_PARAM_STR_BKCLIQUECUTS,
  CBC_PARAM_STR_ODDHOLEWCCUTS,
  CBC_PARAM_STR_GOMORYCUTS,
  CBC_PARAM_STR_PROBINGCUTS,
  CBC_PARAM_STR_KNAPSACKCUTS,
  CBC_PARAM_STR_REDSPLITCUTS,
  CBC_PARAM_STR_ROUNDING,
  CBC_PARAM_STR_SOLVER,
  CBC_PARAM_STR_CLIQUECUTS,
  CBC_PARAM_STR_COSTSTRATEGY,
  CBC_PARAM_STR_FLOWCUTS,
  CBC_PARAM_STR_MIXEDCUTS,
  CBC_PARAM_STR_TWOMIRCUTS,
  CBC_PARAM_STR_PREPROCESS,
  CBC_PARAM_STR_FPUMP,
  CBC_PARAM_STR_GREEDY,
  CBC_PARAM_STR_COMBINE,
  CBC_PARAM_STR_PROXIMITY,
  CBC_PARAM_STR_LOCALTREE,
  CBC_PARAM_STR_SOS,
  CBC_PARAM_STR_LANDPCUTS,
  CBC_PARAM_STR_RINS,
  CBC_PARAM_STR_RESIDCUTS,
  CBC_PARAM_STR_RENS,
  CBC_PARAM_STR_DIVINGS,
  CBC_PARAM_STR_DIVINGC,
  CBC_PARAM_STR_DIVINGF,
  CBC_PARAM_STR_DIVINGG,
  CBC_PARAM_STR_DIVINGL,
  CBC_PARAM_STR_DIVINGP,
  CBC_PARAM_STR_DIVINGV,
  CBC_PARAM_STR_DINS,
  CBC_PARAM_STR_PIVOTANDFIX,
  CBC_PARAM_STR_RANDROUND,
  CBC_PARAM_STR_NAIVE,
  CBC_PARAM_STR_ZEROHALFCUTS,
  CBC_PARAM_STR_CPX,
  CBC_PARAM_STR_CROSSOVER2,
  CBC_PARAM_STR_PIVOTANDCOMPLEMENT,
  CBC_PARAM_STR_VND,
  CBC_PARAM_STR_LAGOMORYCUTS,
  CBC_PARAM_STR_LATWOMIRCUTS,
  CBC_PARAM_STR_REDSPLIT2CUTS,
  CBC_PARAM_STR_GMICUTS,
  CBC_PARAM_STR_CUTOFF_CONSTRAINT,
  CBC_PARAM_STR_DW,
  CBC_PARAM_STR_ORBITAL,
  CBC_PARAM_STR_PREPROCNAMES,
  CBC_PARAM_STR_SOSPRIORITIZE,

  CLP_PARAM_ACTION_DIRECTORY = 401,
  CLP_PARAM_ACTION_DIRSAMPLE,
  CLP_PARAM_ACTION_DIRNETLIB,
  CBC_PARAM_ACTION_DIRMIPLIB,
  CLP_PARAM_ACTION_IMPORT,
  CLP_PARAM_ACTION_EXPORT,
  CLP_PARAM_ACTION_RESTORE,
  CLP_PARAM_ACTION_SAVE,
  CLP_PARAM_ACTION_DUALSIMPLEX,
  CLP_PARAM_ACTION_PRIMALSIMPLEX,
  CLP_PARAM_ACTION_EITHERSIMPLEX,
  CLP_PARAM_ACTION_MAXIMIZE,
  CLP_PARAM_ACTION_MINIMIZE,
  CLP_PARAM_ACTION_EXIT,
  CLP_PARAM_ACTION_STDIN,
  CLP_PARAM_ACTION_UNITTEST,
  CLP_PARAM_ACTION_NETLIB_EITHER,
  CLP_PARAM_ACTION_NETLIB_DUAL,
  CLP_PARAM_ACTION_NETLIB_PRIMAL,
  CLP_PARAM_ACTION_SOLUTION,
  CLP_PARAM_ACTION_SAVESOL,
  CLP_PARAM_ACTION_TIGHTEN,
  CLP_PARAM_ACTION_FAKEBOUND,
  CLP_PARAM_ACTION_HELP,
  CLP_PARAM_ACTION_PLUSMINUS,
  CLP_PARAM_ACTION_NETWORK,
  CLP_PARAM_ACTION_ALLSLACK,
  CLP_PARAM_ACTION_REVERSE,
  CLP_PARAM_ACTION_BARRIER,
  CLP_PARAM_ACTION_NETLIB_BARRIER,
  CLP_PARAM_ACTION_NETLIB_TUNE,
  CLP_PARAM_ACTION_REALLY_SCALE,
  CLP_PARAM_ACTION_BASISIN,
  CLP_PARAM_ACTION_BASISOUT,
  CLP_PARAM_ACTION_SOLVECONTINUOUS,
  CLP_PARAM_ACTION_CLEARCUTS,
  CLP_PARAM_ACTION_VERSION,
  CLP_PARAM_ACTION_STATISTICS,
  CLP_PARAM_ACTION_DEBUG,
  CLP_PARAM_ACTION_DUMMY,
  CLP_PARAM_ACTION_PRINTMASK,
  CLP_PARAM_ACTION_OUTDUPROWS,
  CLP_PARAM_ACTION_USERCLP,
  CLP_PARAM_ACTION_MODELIN,
  CLP_PARAM_ACTION_CSVSTATISTICS,
  CLP_PARAM_ACTION_STOREDFILE,
  CLP_PARAM_ACTION_ENVIRONMENT,
  CLP_PARAM_ACTION_PARAMETRICS,
  CLP_PARAM_ACTION_GMPL_SOLUTION,
  CLP_PARAM_ACTION_RESTORESOL,
  CLP_PARAM_ACTION_GUESS,

  CBC_PARAM_ACTION_BAB = 501,
  CBC_PARAM_ACTION_MIPLIB,
  CBC_PARAM_ACTION_STRENGTHEN,
  CBC_PARAM_ACTION_PRIORITYIN,
  CBC_PARAM_ACTION_MIPSTART,
  CBC_PARAM_ACTION_USERCBC,
  CBC_PARAM_ACTION_DOHEURISTIC,
  CLP_PARAM_ACTION_NEXTBESTSOLUTION,

  CBC_PARAM_NOTUSED_OSLSTUFF = 601,
  CBC_PARAM_NOTUSED_CBCSTUFF,

  CBC_PARAM_NOTUSED_INVALID = 1000
};
#include <vector>
#include <string>

/// Very simple class for setting parameters

class CBCORCLPPARAM_EXPORT CbcOrClpParam {
public:
  /**@name Constructor and destructor */
  //@{
  /// Constructors
  CbcOrClpParam();
  CbcOrClpParam(std::string name, std::string help,
    double lower, double upper, CbcOrClpParameterType type, int display = 2);
  CbcOrClpParam(std::string name, std::string help,
    int lower, int upper, CbcOrClpParameterType type, int display = 2);
  // Other strings will be added by insert
  CbcOrClpParam(std::string name, std::string help, std::string firstValue,
    CbcOrClpParameterType type, int whereUsed = 7, int display = 2);
  // Action
  CbcOrClpParam(std::string name, std::string help,
    CbcOrClpParameterType type, int whereUsed = 7, int display = 2);
  /// Copy constructor.
  CbcOrClpParam(const CbcOrClpParam &);
  /// Assignment operator. This copies the data
  CbcOrClpParam &operator=(const CbcOrClpParam &rhs);
  /// Destructor
  ~CbcOrClpParam();
  //@}

  /**@name stuff */
  //@{
  /// Insert string (only valid for keywords)
  void append(std::string keyWord);
  /// Adds one help line
  void addHelp(std::string keyWord);
  /// Returns name
  inline std::string name() const
  {
    return name_;
  }
  /// Returns short help
  inline std::string shortHelp() const
  {
    return shortHelp_;
  }
  /// Returns long help
  inline std::string longHelp() const
  {
    return longHelp_;
  }
  /// Returns set of valid strings
  inline const std::vector<std::string>& definedKeywords() const
  {
    return definedKeyWords_;
  }
  /// Returns the lower bound for a double-valued parameter
  inline double lowerDoubleValue() const
  {
     return lowerDoubleValue_;
  }
  /// Returns the upper bound for a double-valued parameter
  inline double upperDoubleValue() const
  {
     return upperDoubleValue_;
  }
  /// Returns the lower bound for an int-valued parameter
  inline int lowerIntValue() const
  {
     return lowerIntValue_;
  }
  /// Returns the upper bound for an int-valued parameter
  inline int upperIntValue() const
  {
     return upperIntValue_;
  }
  /// Sets a double parameter (nonzero code if error)
  int setDoubleParameter(CbcModel &model, double value);
  /// Sets double parameter and returns printable string and error code
  const char *setDoubleParameterWithMessage(CbcModel &model, double value, int &returnCode);
  /// Gets a double parameter
  double doubleParameter(CbcModel &model) const;
  /// Sets a int parameter (nonzero code if error)
  int setIntParameter(CbcModel &model, int value);
  /// Sets int parameter and returns printable string and error code
  const char *setIntParameterWithMessage(CbcModel &model, int value, int &returnCode);
  /// Gets a int parameter
  int intParameter(CbcModel &model) const;
  /// Sets a double parameter (nonzero code if error)
  int setDoubleParameter(ClpSimplex *model, double value);
  /// Gets a double parameter
  double doubleParameter(ClpSimplex *model) const;
  /// Sets double parameter and returns printable string and error code
  const char *setDoubleParameterWithMessage(ClpSimplex *model, double value, int &returnCode);
  /// Sets a int parameter (nonzero code if error)
  int setIntParameter(ClpSimplex *model, int value);
  /// Sets int parameter and returns printable string and error code
  const char *setIntParameterWithMessage(ClpSimplex *model, int value, int &returnCode);
  /// Gets a int parameter
  int intParameter(ClpSimplex *model) const;
  /// Sets a double parameter (nonzero code if error)
  int setDoubleParameter(OsiSolverInterface *model, double value);
  /// Sets double parameter and returns printable string and error code
  const char *setDoubleParameterWithMessage(OsiSolverInterface *model, double value, int &returnCode);
  /// Gets a double parameter
  double doubleParameter(OsiSolverInterface *model) const;
  /// Sets a int parameter (nonzero code if error)
  int setIntParameter(OsiSolverInterface *model, int value);
  /// Sets int parameter and returns printable string and error code
  const char *setIntParameterWithMessage(OsiSolverInterface *model, int value, int &returnCode);
  /// Gets a int parameter
  int intParameter(OsiSolverInterface *model) const;
  /// Checks a double parameter (nonzero code if error)
  int checkDoubleParameter(double value) const;
  /// Returns name which could match
  std::string matchName() const;
  /// Returns length of name for ptinting
  int lengthMatchName() const;
  /// Returns parameter option which matches (-1 if none)
  int parameterOption(std::string check) const;
  /// Prints parameter options
  void printOptions() const;
  /// Returns current parameter option
  inline std::string currentOption() const
  {
    return definedKeyWords_[currentKeyWord_];
  }
  /// Sets current parameter option
  void setCurrentOption(int value, bool printIt = false);
  /// Sets current parameter option and returns printable string
  const char *setCurrentOptionWithMessage(int value);
  /// Sets current parameter option using string
  void setCurrentOption(const std::string value);
  /// Sets current parameter option using string with message
  const char *setCurrentOptionWithMessage(const std::string value);
  /// Returns current parameter option position
  int currentOptionAsInteger() const;
  /** Returns current parameter option position
	 but if fake keyword returns a fake value and sets
	 fakeInteger to true value.  If not fake then fakeInteger is -COIN_INT_MAX
      */
  int currentOptionAsInteger(int &fakeInteger) const;
  /// Sets int value
  void setIntValue(int value);
  /// Sets int value with message
  const char *setIntValueWithMessage(int value);
  inline int intValue() const
  {
    return intValue_;
  }
  /// Sets double value
  void setDoubleValue(double value);
  /// Sets double value with message
  const char *setDoubleValueWithMessage(double value);
  inline double doubleValue() const
  {
    return doubleValue_;
  }
  /// Sets string value
  void setStringValue(std::string value);
  inline std::string stringValue() const
  {
    return stringValue_;
  }
  /// Returns 1 if matches minimum, 2 if matches less, 0 if not matched
  int matches(std::string input) const;
  /// type
  inline CbcOrClpParameterType type() const
  {
    return type_;
  }
  /// whether to display
  inline int displayThis() const
  {
    return display_;
  }
  /// Set Long help
  inline void setLonghelp(const std::string help)
  {
    longHelp_ = help;
  }
  /// Print Long help
  void printLongHelp() const;
  /// Print action and string
  void printString() const;
  /** 7 if used everywhere,
         1 - used by clp
         2 - used by cbc
         4 - used by ampl
     */
  inline int whereUsed() const
  {
    return whereUsed_;
  }
  /// Gets value of fake keyword
  inline int fakeKeyWord() const
  {
    return fakeKeyWord_;
  }
  /// Sets value of fake keyword
  inline void setFakeKeyWord(int value, int fakeValue)
  {
    fakeKeyWord_ = value;
    fakeValue_ = fakeValue;
  }
  /// Sets value of fake keyword to current size of keywords
  void setFakeKeyWord(int fakeValue);

private:
  /// gutsOfConstructor
  void gutsOfConstructor();
  //@}
  ////////////////// data //////////////////
private:
  /**@name data
      We might as well throw all type data in - could derive?
     */
  //@{
  // Type see CbcOrClpParameterType
  CbcOrClpParameterType type_;
  /// If double == okay
  double lowerDoubleValue_;
  double upperDoubleValue_;
  /// If int == okay
  int lowerIntValue_;
  int upperIntValue_;
  // Length of name
  unsigned int lengthName_;
  // Minimum match
  unsigned int lengthMatch_;
  /// set of valid strings
  std::vector< std::string > definedKeyWords_;
  /// Name
  std::string name_;
  /// Short help
  std::string shortHelp_;
  /// Long help
  std::string longHelp_;
  /// Action
  CbcOrClpParameterType action_;
  /// Current keyWord (if a keyword parameter)
  int currentKeyWord_;
  /// Display on ?
  int display_;
  /// Integer parameter - current value
  int intValue_;
  /// Double parameter - current value
  double doubleValue_;
  /// String parameter - current value
  std::string stringValue_;
  /** 7 if used everywhere,
         1 - used by clp
         2 - used by cbc
         4 - used by ampl
     */
  int whereUsed_;
  /** If >=0 then integers allowed as a fake keyword
	 So minusnnnn would got to -nnnn in currentKeyword_
	 and plusnnnn would go to fakeKeyword_+nnnn
     */
  int fakeKeyWord_;
  /// Return this as main value if an integer
  int fakeValue_;
  //@}
};
/// Simple read stuff
CBCORCLPPARAM_EXPORT
std::string CoinReadNextField();

CBCORCLPPARAM_EXPORT
std::string CoinReadGetCommand(int argc, const char *argv[]);
CBCORCLPPARAM_EXPORT
std::string CoinReadGetString(int argc, const char *argv[]);
// valid 0 - okay, 1 bad, 2 not there
CBCORCLPPARAM_EXPORT
int CoinReadGetIntField(int argc, const char *argv[], int *valid);
CBCORCLPPARAM_EXPORT
double CoinReadGetDoubleField(int argc, const char *argv[], int *valid);
CBCORCLPPARAM_EXPORT
void CoinReadPrintit(const char *input);
CBCORCLPPARAM_EXPORT
void setCbcOrClpPrinting(bool yesNo);
CBCORCLPPARAM_EXPORT
int getCbcOrClpReadMode();
CBCORCLPPARAM_EXPORT
void setCbcOrClpReadMode(int mode);
CBCORCLPPARAM_EXPORT
void setCbcOrClpReadCommand(FILE* f);

#define CBCMAXPARAMETERS 250
/*
  Subroutine to establish the cbc parameter array. See the description of
  class CbcOrClpParam for details. Pulled from C..Main() for clarity.
*/
CBCORCLPPARAM_EXPORT
void establishParams(std::vector< CbcOrClpParam > &params);
// Given a parameter type - returns its number in list
CBCORCLPPARAM_EXPORT
int whichParam(const CbcOrClpParameterType &name,
  const std::vector< CbcOrClpParam > &parameters);
// Dump/restore a solution to file
CBCORCLPPARAM_EXPORT
void saveSolution(const ClpSimplex *lpSolver, std::string fileName);
CBCORCLPPARAM_EXPORT
void restoreSolution(ClpSimplex *lpSolver, std::string fileName, int mode);

#endif /* CbcOrClpParam_H */

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